I feel that Exam 1 was a fair assessment. 1. Strongly Agree 2. Agree 3. Neither Agree/Disagree 4. Disagree 5. Strongly Disagree

I feel that Exam 1 was aligned with what we have been doing (in class and on homework). 1. Strongly Agree 2. Agree 3. Neither Agree/Disagree 4. Disagree 5. Strongly Disagree

<img src="./images/cubical_lattice.png" align="center" style="width: 300px";/> If you put a positive test charge at the center of this cube of charges, could it be in stable equilibrium? 1. Yes 2. No 3. ??? Note: * CORRECT ANSWER: B

### Separation of Variables (Cartesian) <img src="./images/cartesian_sep_variables.png" align="center" style="width: 500px";/>

Say you have three functions $f(x)$, $g(y)$, and $h(z)$. $f(x)$ depends on $x$ but not on $y$ or $z$. $g(y)$ depends on $y$ but not on $x$ or $z$. $h(z)$ depends on $z$ but not on $x$ or $y$. If $f(x) + g(y) + h(z) = 0$ for all $x$, $y$, $z$, then: 1. All three functions are constants (i.e. they do not depend on $x$, $y$, $z$ at all.) 2. At least one of these functions has to be zero everywhere. 3. All of these functions have to be zero everywhere. 4. All three functions have to be linear functions in $x$, $y$, or $z$ respectively (such as $f(x)=ax+b$) Note: * CORRECT ANSWER: A

If our general solution contains the function, $$X(x) = Ae^{\sqrt{c}x} + Be^{-\sqrt{c}x}$$ What does our solution look like if $c<0$; what about if $c>0$? 1. Exponential; Sinusoidal 2. Sinusoidal; Exponential 3. Both Exponential 4. Both Sinusoidal 5. ??? Note: * CORRECT ANSWER: B

Our example problem has the following boundary conditions: * $V(0,y>0) = 0; V(a,y>0) = 0$ * $V(x_{0\rightarrow a},y=0) = V_0; V(x,y\rightarrow \infty) = 0$ If $X''= c_1 X$ and $Y'' = c_2Y$ with $c_1 + c_2 = 0$, which is constant is positive? 1. $c_1$ 2. $c_2$ 3. It doesn't matter either can be Note: * CORRECT ANSWER: B